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I am an enthusiastic supporter of the “open source” culture/trend/society. I also believe that I have proven this over the years, by providing code – procedural designs and making them available for free to the public as many others do in this small computational design community. Most of the times, help has been successful, others less successful. A common factor though, to all of these cases is that I have never asked anything in return.

And that’s simply because I DON’T WANT ANYTHING IN RETURN. Never asked, nor will ask for in the future. (Although I have made a little experiment, see below).

You have to understand that I also do this for ME, for my own entertainment, for FUN, for becoming better. YES, you are becoming better by solving other people design / coding issues. Surely it’s not possible to encounter many different riddles, niggling situations and dead ends in your daily work routine. But, if you pick up from a collective pool of problems coming from other colleagues, professionals and students, certainly you have access to a wider range and a plethora of similar or dissimilar case scenarios. All these, are making me capable of seeing more, solving more and eventually enriching my design, problem-solving or mathematics, or complex geometry, or whatever you want to call it.
Have I asked for help? Yes! And I will definitely do it again.

Who’s asking? From my experience roughly 70% of the questions originates from the academic context. The other 30% from the industry mainly disguised to look like dummy questions. I don’t mind them at all, they are usually clearer, less blobby and more interesting to tackle.

Why am I mumbling about sharing? To be honest I am feeling quite frustrated lately. At first I didn’t care about people’s ungratefulness and lack of manners, but I guess as you are getting older your tolerance hasn’t got the analogous effect, more like the opposite I would argue.
Not only that, people have become demanding. “Send me this file, I need it” , “do it working like this” ect.

I understand that maybe sometimes there are difficulties in the verbal or written communication, not native English speakers for example, but I believe there is one word that everybody knows of. That word is “please“. It’s not begging, it’s not loosing face, it’s simply asking someone politely.

This word, combined with another famous one, “thank you” can be pretty powerful when used in the same or in consecutive sentences. Trust me. I know.

I had a chat a few months back with two friends, fellow developers of a very successful free software, on whether we should license software or not. The answer was NO. Not only because we like to share stuff for free, but also because we are not exactly software developers, rather than a fusion between designers and programmers. They were though frustrated by the arrogance and rudeness of firms asking to use their software for commercial purposes, hence making money out of it, and then denying sharing the projects where this software was implemented, with the developers, that only wanted to put them together in a paper for a publication.

In a funny way, you are awesome while you give something, but when you ask the simplest thing in return, something worthless, the same people that you’ve helped turn their backs on you without second thoughts. How proper of them.

The little experiment mentioned earlier in this text, is a paypal donation button I added to my website about a year ago. “ if you like our stuff and want to keep digital [sub]stance up and running please consider donating“. Eleven donations so far, most of them by students, roughly 5 $ each. Compared to 600.000 unique views, 6000 downloads of Nudibranch on the food4rhino website, and a total of 25.000 downloads of the shared scripts and procedural concepts shared on box.net.

I would like to thank these few people, not for their money, as I said I am not expecting to make any money out of this. But because they felt they had to give something back. Although for me, a simple thank you is more than enough. But even this is hard to get.

The simplest and the academically appropriate method of saying “thank you“, is referencing. Professors ask for it, journals ask for it, conferences as well, so why on earth you don’t properly reference, people?? It costs nothing and it displays your integrity. It also indicates that you have actually conducted some research, that you are not a supreme human being, but you used something, cut it out on your own requirements and hopefully advanced this something to a greater level of importance.

I asked my students at exparch earlier this year to go out, research, study and use something that they found online but by properly referencing it. I know it’s impossible to learn how to code in one month, but if you study something enough to understand it, you’ve made a small step towards this goal. I didn’t even ask for something new, I just asked to understand the process and comprehend the reality that you have to reference anything you present.

It’s not that professors can’t keep up with new developments, new processes and research of others, which architecture students present as their own. That’s impossible. The problem lies deeper, into the fact that architecture, design and their visual output is something ambiguous and difficult to enclose within copyright boundaries.
Code and procedural thought, is not however. That’s why in my own naive opinion any kind of so wannabe called generative, algorithmic, parametric blah blah blah processes and its output SHOULD BE PROPERLY REFERENCED.

Conclusion

Please pardon my long introduction to this set of rules that I decided I am going to implement from now on, while sharing stuff online or helping on demand.

1. Help someone that asks politely.
2. ALWAYS help out someone that thanks in advance (quite a powerful set of words this one)
3. If you are helping out a student, ask for a cc to their professor tutor in the e-mail.
4. Never ask for people to reference your work even though you know that they’ve used your tools. Just blacklist them and do not help them again. Whether you can find them or not, that’s another story.
5. Do not help someone that provides nothing as a starting point, at 90% of the cases they are just too lazy to do something on their own and expect from others to solve their problems. Only guide them with references.
6. ALWAYS help with something that you are interested into, or seems intriguing.
7. Do not spend more than 3 answers explaining the same thing. More than three is probably useless anyway, your work is done there.
8. Let people know about google and website embedded search options. (Saves a lot of time)
9. Don’t give out stuff, give out the process. This is helpful for the other, to learn by replicating your thoughts!
10. Create a grading system, I found websites such Stack Overflow are quite successful on how they provide help for their users. I believe such grading systems make everyone’s life much better.

FYI: Even though this text might seem kind of offensive, but no means it consists a declaration of me giving up on people’s eagerness to learn, and I will always consider this my driving motto.

Seven months later after the first official release, I kind of managed to properly update Nudibranch to the Grasshopper 0.9.005X series. The new version out is 0.028 (yes there were 27 different incremental attempts in between..) and it marks bug fixes (two evident plus more that were not that easy to spot), minor updates and optimization of some components, and finally 5brand new components (**more details further down on this post). Bouncers, Slicer, BundleAttractor, MeshClimber, FrameGrid(new sub-tab Utilities) and Box3dGrid(new sub-tab Utilities).

Hopefully this is a major update, not only for introducing new components but mainly for improving the existing functionality of the add-on, specifically by reinforcing its global character, increasing its accessibility and user-friendliness, while exponentially reducing the calculation time for many of the existing routines. This release is unfortunately supported only by Rhino 5.0. The previous release for Rhino 4.0 is still going to be available to anyone who might be using the previous version of the software but its functionality is limited.

Some snapshots of the New Features are displayed in the following figures.

Of course your feedback is valuable in any case, so do not hesitate to contact us and add your comments or critique, either here on the blog or though the official Nudibranch group in the Grasshopper3d forum.You can download Nudibranch of the Food4Rhinowebsite.Enjoy :)**BUG FIXES• Satellite Component: The component was throwing an exception when loading geometry that was of Type IGH_GeometricGoo. This is fixed. (thanks Igor GH Forum for noticing)• PointAttractor and CurveAttractor: These components were creating Null vectors when the attractors where further than the attraction range. This is fixed, they return Zero length vectors. (thanks Igor GH Forum for noticing)EXISTING COMPONENT IMPROVEMENTS• AttractorValues + CurveValues: Switched data arrangement to longest list Added additional right-click drop down menu to the distribution input Added auto-fill options when a value-list component is connected to the distribution input Added three options for the attractor solver as a right-click menu on the component (Minimum, Average, Maximum)• PointAttractor + CurveAttractor: Switched data arrangement to longest list Added additional right-click drop down menu to the distribution input Added auto-fill options when a value-list component is connected to the distribution input• TwirlAttractor: Switched data arrangement to longest list NUDIBRANCH Version HistoryNudibranch Version History• Railway: Added inheritance of the DataPath for the curves used as rails to organize thegenerated points in a branched structure of the original.• Walkers: Added an extra input for randomizing the speed for each walker in thedomain of (-Factor to Factor)• PointHicking + CurveHicking + PointPatrolling: Switched data arrangement to longest list• Uphill + Downhill: These components were replaced by the Climber Component Added two options for the solver as a right-click menu on the component(DownHill, UpHill)NEW COMPONENTS• Bouncers: Animators Tab: Generates and animates a Number of Particles bouncingwithin a user defined Box boundary.• Slicer: Animators Tab: Generates and animates Rhino Clipping planes for a set ofuser defined curves.• BundleAttractor: Attractors Tab: Generates an iteratively bundled point list for any givenDataTree population of points.• MeshClimber: Scramblers Tab: Generates the gradient descent or ascent paths on a Meshobject for any provided point list.• FrameGrid: Utilities Tab: Generates a 2-dimensional grid of points distributed as arow/column structure for any given 3dRectangle.• Box3DGrid: Utilities Tab: Generates a 3-dimensional grid of points distributed as arow/flippedrow/column structure for any given Box.EXTRA NOTES• All modified components have been marked as “OBSOLETE”; hence they will continue tooperate in existing files with the previous release functionality. The “OLD” logo will appear ontop of the component’s icon.• Added a tab icon for the 0.9.005x series• Added a new icon in component Libraries• Loaded from COFF Data

Almost 4 months after my last post..:( i have been really busy lately , mostly with amazingly interesting stuff that I’ll have the time (me thinks!) to unveil in the near future, plus the development for the next build of Nudibranch to be up-to-date with the new grasshopper version 0.9.0052.

But just to get things rolling and before moving into any major update, I decided to share a fabrication oriented definition of mine, that was developed quite a long time ago. I tried to narrow it down , clean it up and share it along with a small code snippet in Python to generate dot text objects in the rhino viewport (this is now embedded in the new gh), but it serves the general purpose of learning how to interact with rhino objects through Gh.

On the other hand, this definition is really useful (though my point of view at least) especially for the many advantages it has over the normal 2-dimensional waffling system, mainly in terms of rigidness and detail. At the same time this fabrication methodology provides a denser structural framework for any possible post-processing routine in order to describe better the analysed and fabricated design (most of the times a freeform, double curved surface or object) like for example the implementation of a gap filling material like stucco, cement or resin forming somehow an interesting composite system.

The system takes on single surface and translates it into ready to laser-cut stripes laying on three different grid systems, + tags + the quantification of the joints of the system(python snippet). The code of which is just a few lines as you can see below.